Biological Systems: Open Access

ISSN - 2329-6577

44-7723-59-8358

The role of carbohydrates at the origin of homochirality in biosystems

3rd International Conference on Integrative Biology

August 04-06, 2015 Valencia, Spain

Soren Toxvaerd

Posters-Accepted Abstracts: Biol Syst Open Access

Abstract :

Pasteur has demonstrated that the chiral components in a racemic mixture can separate in homochiral crystals. But with a strong chiral discrimination the chiral components in a concentrated mixture can also phase separate into homochiral fluid domains, and the isomerization kinetics can then perform a symmetry breaking into one stable homochiral system. Glyceraldehyde has a sufficient chiral discrimination to perform such a symmetry breaking. The requirement of a high concentration of the chiral reactant(s) in an aqueous solution in order to perform and maintain homochirality; the appearance of phosphorylation of almost all carbohydrates in the central machinery of life; the basic ideas that the biochemistry and the glycolysis and gluconeogenesis contain the trace of the biochemical evolution, all point in the direction of that homochirality was obtained just after or at a phosphorylation of the very first products of the formose reaction, at high concentrations of the reactants in phosphate rich compartments in submarine hydrothermal vents. A racemic solution of D,L-glyceraldehyde-3- phosphate could be the template for obtaining homochiral D-glyceraldehyde-3-phosphate (aq) as well as L-amino acids.

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